def load_ip_brief_and_routes():
id = request.json
device = Device.query.get(id)
if ping(device.deviceip):
c = SendCommands()
print(
c.connecting(device.deviceuserlogin, device.deviceip,
device.devicepassword, device.devicepasswordena))
if not c.error_desc == 'Error de Autenticacion':
print('passwords correctos')
check_ip_brief, check_ip_route = c.ip_brief_and_routes()
return jsonify(check_ip_brief=format(check_ip_brief),
check_ip_route=format(check_ip_route))
else:
output = 'Verifique que los Passwords de Acceso tanto para login como modo ENABLE sean correctos'
return jsonify(data=output)
return jsonify(data='algo fallo')
else:
return jsonify(
data=
'El estado del dispositivo es Down! verifique conectividad IP...')
def show_result_static_route():
group = 'Static Route'
form = DevicesConfigStaticRoute()
# print('static route id',form.id.data)
if form.validate_on_submit():
id_c = form.id.data
device = Device.query.get(id_c)
user = User.query.get(id_c)
print('device ip:', device.deviceip)
print('ip validada:', form.ip_destino.data)
if ping(device.deviceip):
# ip=form.ip_destino.data
# mask=form.mascara.data
# n_hop=form.next_hop.data
# space=' '
# mycall = call()
# out = mycall.calling(ip,mask,n_hop)
# print(out)
c = SendCommands()
print(
c.connecting(device.deviceuserlogin, device.deviceip, 'cisco',
'cisco'))
userlogin = device.deviceuserlogin
deviceip = device.deviceip
devicepassword = device.devicepassword
devicepasswordena = device.devicepasswordena
print(userlogin, deviceip, devicepassword, devicepasswordena)
# c.connecting('raul','192.168.10.110','cisco','cisco')
if not c.error_desc == 'Error de Autenticacion':
# print(c.net_connect.find_prompt())
output, running_config = c.static_route(
form.ip_destino.data, form.mascara.data,
form.next_hop.data)
# output= c.net_connect.find_prompt()
task = bg_save_executed_cm.delay(form.id.data, output,
running_config, group)
else:
output = 'Verifique que los Passwords de Acceso tanto para login como modo ENABLE sean correctos'
# new_device_config = DeviceConfig(deviceconfig=device.devicename+'-'+str(datetime.utcnow()),devicecurrentconfig=out)
# new_device_config.device= device
# db.session.add(new_device_config)
# db.session.commit()
return jsonify(data=format(output))
else:
return jsonify(
data=
'El estado del dispositivo es Down! verifique conectividad IP...'
)
else:
# flash_errors(form)
# return jsonify(ip_destino=form.ip_destino.errors, mascara=form.mascara.errors, next_hop=form.next_hop.errors)
return jsonify(error1=form.ip_destino.errors,
error2=form.mascara.errors,
error3=form.next_hop.errors)
return jsonify(data='Error en la validacion de los datos!')
def show_result_ebgp_vrf():
form = ebgp_vrf_form()
# print('static route id',form.id.data)
if form.validate_on_submit():
device = Device.query.get(form.id.data)
if ping(device.deviceip):
# falta terminar de configurar
# mycall = call()
# out = mycall.calling(ip,mask,n_hop)
# print(out)
# new_device_config = DeviceConfig(deviceconfig=device.devicename+'-'+str(datetime.utcnow()),devicecurrentconfig=out)
# new_device_config.device= device
# db.session.add(new_device_config)
# db.session.commit()
c = SendCommands()
print(
c.connecting(device.deviceuserlogin, device.deviceip,
device.devicepassword, device.devicepasswordena))
userlogin = device.deviceuserlogin
deviceip = device.deviceip
devicepassword = device.devicepassword
devicepasswordena = device.devicepasswordena
print(userlogin, deviceip, devicepassword, devicepasswordena)
# c.connecting('raul','192.168.10.110','cisco','cisco')
if not c.error_desc == 'Error de Autenticacion':
# print(c.net_connect.find_prompt())
output = c.eBGP_vrf(form.bgp_process.data, form.bgp_as.data,
form.bgp_neighbor.data, form.bgp_vrf.data)
# output= c.net_connect.find_prompt()
else:
output = 'Verifique que los Passwords de Acceso tanto para login como modo ENABLE sean correctos'
# new_device_config = DeviceConfig(deviceconfig=device.devicename+'-'+str(datetime.utcnow()),devicecurrentconfig=out)
# new_device_config.device= device
# db.session.add(new_device_config)
# db.session.commit()
return jsonify(data=format(output))
return jsonify(data=format(out))
else:
return jsonify(
data=
'El estado del dispositivo es Down! verifique conectividad IP...'
)
else:
# flash_errors(form)
# return jsonify(ip_destino=form.ip_destino.errors, mascara=form.mascara.errors, next_hop=form.next_hop.errors)
return jsonify(error1=form.bgp_process.errors,
error2=form.bgp_as.errors,
error3=form.bgp_neighbor.errors,
erro4=form.bgp_network,
error5=form.bgp_mascara)
return jsonify(data='Error en la validacion de los datos!')
def test_ping():
print("\nStart ping to test {} for {} times".format(ip_addr, ping_count))
average_rtt, loss = ping(ip_addr, ping_count)
status = False
# Fail condition
if loss < 30 and average_rtt <= 3:
status = True
assert status == True
def show_result_interface_vrf():
form = DeviceConfigInterfaces_vrf()
# print('static route id',form.id.data)
if form.validate_on_submit():
device = Device.query.get(form.id.data)
if ping(device.deviceip):
interface = form.interface.data
interface_ip = form.interface_ip.data
interface_mascara = form.interface_mascara.data
# new_device_config = DeviceConfig(deviceconfig=device.devicename+'-'+str(datetime.utcnow()),devicecurrentconfig=out)
# new_device_config.device= device
# db.session.add(new_device_config)
# db.session.commit()
c = SendCommands()
print(
c.connecting(device.deviceuserlogin, device.deviceip,
device.devicepassword, device.devicepasswordena))
# c.connecting('raul','192.168.10.110','cisco','cisco')
if not c.error_desc == 'Error de Autenticacion':
# print(c.net_connect.find_prompt())
output = c.interfaces_vrf(form.interface.data,
form.interface_vrf.data,
form.interface_ip.data,
form.interface_mascara.data, 'Up')
# output= c.net_connect.find_prompt()
else:
output = 'Verifique que los Passwords de Acceso tanto para login como modo ENABLE sean correctos'
# new_device_config = DeviceConfig(deviceconfig=device.devicename+'-'+str(datetime.utcnow()),devicecurrentconfig=out)
# new_device_config.device= device
# db.session.add(new_device_config)
# db.session.commit()
return jsonify(data=format(output))
else:
return jsonify(
data=
'El estado del dispositivo es Down! verifique conectividad IP...'
)
else:
# flash_errors(form)
# return jsonify(ip_destino=form.ip_destino.errors, mascara=form.mascara.errors, next_hop=form.next_hop.errors)
return jsonify(error1=form.interface.errors,
error2=form.interface_ip.errors,
error3=form.interface_mascara.errors)
return jsonify(data='Error en la validacion de los datos!')
def worker(node_id,ip_addr):
ping_ok = True
current_status = ping_ok
last_status = ping_ok
last_error_id = None
while(True):
if reduce(lambda a,b: a and b,[ping(ip_addr) for i in xrange(int(config["ping_times"]))]):
if last_status != ping_ok:
#上次如果是失败的话就重置状态为成功
Q.put((node_id, True, last_error_id))
last_status = ping_ok
last_error_id = None
else:
if last_status == ping_ok:
#如果上次是成功的话就重置状态为失败,如果已经是失败状态就不重复操作
last_error_id = uuid.uuid4().hex
Q.put((node_id, False, last_error_id))
last_status = False
gevent.sleep(seconds=int(config["wait"]))
def bg_task(id):
# Chequeo Asyncrono para que no interrumpa las solicitudes http get o post
up = ''
device = Device.query.get(id)
if ping(device.deviceip):
print('Levanto!', device.deviceip)
up = 'Up'
else:
print('Down!', device.deviceip)
up = 'Down'
print('device status:', up)
s = snmpcall()
i = s.interfaces(device.devicesnmp,device.deviceip)
lista_inter = ''
for inter in i:
lista_inter += inter + ' '
#result = jsonify(status=up,interfaces_snmp=lista_inter)
return up, lista_inter
def load_device():
up = ''
# print('request json',request.json)
device = Device.query.get(request.json)
if ping(device.deviceip):
up = 'Up'
else:
up = 'Down'
s = snmpcall()
i = s.interfaces(device.devicesnmp, device.deviceip)
lista_inter = ''
for inter in i:
lista_inter += inter + ' '
# print('device data:',device.devicename,device.deviceip,device.devicerol)
return jsonify(devicename=device.devicename,
devicerol=device.devicerol,
deviceip=device.deviceip,
status=up,
devicesnmp=device.devicesnmp,
interfaces_snmp=lista_inter)
#Get the Local IP
end = re.search('^[\d]{1,3}.[\d]{1,3}.[\d]{1,3}.[\d]{1,3}', ip)
#Chop down the last IP Digits
create_ip = re.search('^[\d]{1,3}.[\d]{1,3}.[\d]{1,3}.', ip)
#Print IP to the user
print "Your IP Address is: " + str(end.group(0))
#Pinging the IP
def ping(ip):
if verbose_ping(ip) == True:
print ip, 'is Online'
#Check IP
def CheckLoopBack(ip):
if (end.group(0) == '127.0.0.1'):
return True
print "Either your IP is a Loop Back or it does not belong in local IP range"
print "Pinging IP's..."
if(CheckLoopBack(create_ip)):
print "Either your IP is a Loop Back or it does not belong in local IP range"
else:
for i in range(1, 244):
ping(str(create_ip.group(0)) + str(i))
os.system('clear')
print bc.dtm + time.ctime(
) + bc.ENDC + ' - Updating Gateway Record to Database \n\n'
cur.execute(
'UPDATE gateway SET sync = %s, location = %s, reboot = %s, find_gw = %s where id = %s',
(0, ip, 1, 0, 1))
con.commit()
print "-" * 65
s.close()
exit()
else:
print bc.dtm + time.ctime(
) + bc.ENDC + ' - Scanning for Next Alive IP Address'
#Check IP
def CheckLoopBack(ip):
if (end.group(0) == '127.0.0.1'):
return True
print bc.dtm + time.ctime(
) + bc.ENDC + ' - Either your IP is a Loop Back or it does not belong in local IP range'
print bc.dtm + time.ctime() + bc.ENDC + ' - Pinging Local Network IP Range '
if (CheckLoopBack(create_ip)):
print bc.dtm + time.ctime(
) + bc.ENDC + ' - Either your IP is a Loop Back or it does not belong in local IP range'
else:
for i in range(1, 254):
ping(str(create_ip.group(0)) + str(i))
import unittest
from ping import *
result = ping ("google.com")
class TestSequenceFunctions(unittest.TestCase):
def setUp(self):
self.result = ping ("google.com")
def test_packet_loss(self):
self.assertTrue("packet loss" in self.result)
def test_number_ping(self):
self.assertRaises(TypeError, ping, 12312312)
def test_list_ping(self):
self.assertRaises(TypeError, ping, [1,2,3,4,5])
def test_tuple_ping(self):
self.assertRaises(TypeError, ping, (1,2,3,4,5))
if __name__ == '__main__':
unittest.main()
# Ping_Test.py
from cyberbot import *
from ping import *
bot(22).tone(2000, 300)
while True:
distance = ping(8).distance()
print('Dist() = %d' % distance)
distance = ping(8).distance('cm')
print('Dist(cm) = %d' % distance)
distance = ping(8).distance('in')
print('Dist(in) = %d' % distance)
distance = ping(8).distance('us')
print('Dist(us) = %d\r' % distance)
#display.scroll(str(distance), 125)
sleep(750)
C = colored
#ping = verbose_ping
ping = quiet_ping
def check_result(res):
if res != 1.0:
return C("√", "green")
else:
return C("×", "red", attrs=["bold"])
for hmi_com_board in hmi_com_boards:
print(C("正在检查{0}控显机通信板状态...".format(hmi_com_board["NAME"]), "yellow"))
# check A
res = ping(hmi_com_board['A'])
print(
C(
" 正在检查A口通信状态,ip:{0} [{1}]".format(
hmi_com_board['A'], check_result(res[3])), "yellow"))
# check B
res = ping(hmi_com_board['B'])
print(
C(
" 正在检查B口通信状态,ip:{0} [{1}]".format(
hmi_com_board['B'], check_result(res[3])), "yellow"))
print()
import time, os
from urllib2 import urlopen
import conf
from ping import *
content = ""
while True:
result = ping(conf.route)
try:
content = urlopen(conf.message_url).read()
except urllib2.HTTPError:
print "wrong url or server down" #most like 404
if "100% packet loss" in result:
print "server down"
if content != "":
message = "server down!" + content
else: message = "The server you were monitoring is DOWN!"
#server down, do procedure
Mailing.mail(conf.email, "Server is down", message)
print "email sent"
if conf.sms_alarm and conf.sms_company.lower() == "movistar":
Mailing.mail(conf.sms_number+"@sms.movistar.net.ar", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "verizon":
Mailing.mail(conf.sms_number+"@vtext.com", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "at&t":
Mailing.mail(conf.sms_number+"@txt.att.net", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "sprint":
Mailing.mail(conf.sms_number+"@messaging.sprintpcs.com", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "t-mobile":
def setUp(self):
self.result = ping("google.com")
import unittest
from ping import *
result = ping("google.com")
class TestSequenceFunctions(unittest.TestCase):
def setUp(self):
self.result = ping("google.com")
def test_packet_loss(self):
self.assertTrue("packet loss" in self.result)
def test_number_ping(self):
self.assertRaises(TypeError, ping, 12312312)
def test_list_ping(self):
self.assertRaises(TypeError, ping, [1, 2, 3, 4, 5])
def test_tuple_ping(self):
self.assertRaises(TypeError, ping, (1, 2, 3, 4, 5))
if __name__ == '__main__':
unittest.main()
import time, os
from urllib2 import urlopen
import conf
from ping import *
content = ""
while True:
result = ping(conf.route)
try:
content = urlopen(conf.message_url).read()
except urllib2.HTTPError:
print "wrong url or server down" #most like 404
if "100% packet loss" in result:
print "server down"
if content != "":
message = "server down!" + content
else:
message = "The server you were monitoring is DOWN!"
#server down, do procedure
Mailing.mail(conf.email, "Server is down", message)
print "email sent"
if conf.sms_alarm and conf.sms_company.lower() == "movistar":
Mailing.mail(conf.sms_number + "@sms.movistar.net.ar", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "verizon":
Mailing.mail(conf.sms_number + "@vtext.com", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "at&t":
Mailing.mail(conf.sms_number + "@txt.att.net", "", message)
if conf.sms_alarm and conf.sms_company.lower() == "sprint":
Mailing.mail(conf.sms_number + "@messaging.sprintpcs.com", "",
def setUp(self):
self.result = ping ("google.com")
# Ping_Push_Pull.py
from cyberbot import *
from ping import *
from feedback360 import *
setPoint = 25
kP = -7
bot(22).tone(2000, 300)
drive.connect()
while True:
distance = ping(8).distance('cm')
errorVal = setPoint - distance
speed = kP * errorVal
if speed > 0:
display.show(Image("00000:" "00000:" "99999:" "09090:" "00900"))
elif speed < 0:
display.show(Image("00900:" "09090:" "99999:" "00000:" "00000"))
else:
display.show(Image.DIAMOND)
drive.speed(speed, speed)
]
colorama.init()
C = colored
#ping = verbose_ping
ping = quiet_ping
def check_result(res):
if res != 1.0:
return C("√","green")
else:
return C("×","red",attrs=["bold"])
for hmi_com_board in hmi_com_boards:
print(C("正在检查{0}控显机通信板状态...".format(hmi_com_board["NAME"]),"yellow"))
# check A
res = ping(hmi_com_board['A'])
print(C(" 正在检查A口通信状态,ip:{0} [{1}]"
.format(hmi_com_board['A'],check_result(res[3])),"yellow"))
# check B
res = ping(hmi_com_board['B'])
print(C(" 正在检查B口通信状态,ip:{0} [{1}]"
.format(hmi_com_board['B'],check_result(res[3])),"yellow"))
print()
